UA56923A - Foaming composition for development of wells - Google Patents

Abstract

Foaming composition for development of wells includes urea, nitrite of alkali- or alkali-earth metal, acetic acid, SAS, water, hydroxide of alkali metal.

Description

Description of the invention

The invention relates to the oil and gas production industry, in particular to foaming compositions, and can be used to cause the inflow of fluid from the reservoir during well development.

A well-known composition for inducing the flow of fluid from the formation, which contains urea, aluminum sulfate, surfactant and water.

Gas saturation of the solution occurs as a result of thermal hydrolysis of urea according to the scheme:

СО(МНо)» and NO in СО» and 2МНЗ (1)

The disadvantages of the introduction of this composition are: - low gas-saturating property due to the dissolution of chemical reaction products (carbon dioxide and ammonia) in water, especially at high pressure; - corrosion of oil industry equipment due to the presence of non-ferrous metals and their alloys in ammonia; - limited thermal conditions (temperature in the well should not exceed 1057);

The closest in technical essence to the proposed foam-forming composition is a self-generating foam system that contains urea, surface-active substance (surfactant), nitrites of alkali and alkaline earth metals, acid, urotropin and water (Authorske st. USSR Mo 1035201, class E 21 B 43/25, 19821).

As a gas-saturated agent in this composition, carbon dioxide and nitrogen gas appear as a result of the interaction of the following components:

Mamoz to NU in Ma? to NMO" (2) (МН2г)" СО i 2НМО» -» Mo to СО» ZNO (3) "

The disadvantages of this composition are: - when the acid and nitrite salts interact at a pH of 4.0, brown gas is formed, which leads to the formation of equipment corrosion. At a composition temperature above 207C, nitrous acid decomposes with the release of dioxide and nitrogen oxide. at

Nitrogen dioxide (brown gas) reacts with water to form nitric acid according to the following scheme: сч 2НМО" "е" М203 к Нг2О (4) (е)

M203 -" MO" and MO at a temperature of x 2070 (5) "so

ZMO" same BUT "in" 2NMO" MO (6)

Is) and in the absence of an oxidizer and free oxygen:

AMO" i 2NoO i 05 "is" ANMO:z (7) " - urotropin decomposes with the release of formaldehyde and ammonia in an acidic environment. Decomposition products - urotropin c and the acid itself are corrosive-active agents; t - foaming occurs at any plus temperatures immediately upon mixing the initial components and has an explosive nature, that is, difficulties arise in the implementation of the technological process during development of the well.

The invention is based on the task of creating such a foam-forming compound for developing wells, in which due to the gas saturation of the solution and the formation of foam at the bottom of the well from the thermal energy of the formation, the efficiency of well development and the reduction of equipment corrosion are increased.

Ф To solve the problem, a foaming composition for developing wells is proposed, which contains (se) urea, nitrite of an alkaline or alkaline earth metal, acetic acid, surfactant and water, which, according to the invention, additionally contains 50% alkali metal hydroxide with the following ratio of components, by weight. 90: p» Urea 3.0-8.8;

Alkaline or alkaline earth metal nitrite 8.6 - 20.2;

Acetic acid 17.4-41.0;

Alkali metal hydroxide 9.6 - 21.6;

South Africa 05-10

R Water is the rest.

The gas saturation of the solution and the formation of foam at the bottom of the well occur spontaneously due to the thermal energy of the reservoir through a number of intermediate reactions. For example, the composition additionally contains sodium hydroxide, then the general chemical equation of the interaction of the initial components has the following form: asnusoon-vmaon "IRze |mnrvso z(a- vimamo" -z a-v za-v vvt aSsNISOOMazhavim; zh noya ke - D-

where a and c are stoichiometric coefficients of the chemical equation.

The stoichiometric coefficients are found by calculation from the graphs of the dependence of the rate of gas evolution on the pH of the medium and temperature (Fig. 1); - the pH of the environment and the weight ratio of acetic acid to sodium hydroxide (Fig. 2).

Some values of stoichiometric coefficients of chemical equations are given in Table 1.

Alkali metal hydroxide additionally introduced into the foaming composition forms with acetic acid an acetate buffer solution (which regulates the pH), and also affects the rate of gas saturation of the solution. At a low pH value of the environment, the composition forms foam more intensively. 70 Adjusting the pH of the environment helps reduce equipment corrosion, at pH 24.0, corrosive-active nitrogen dioxide is not released.

The reduction of the corrosion activity of the proposed composition in comparison with known ones is confirmed by experimental studies, which are shown in Table 2.

Acetate buffer solution is a mixture of solutions of a weak acid, salts of this acid and a strong /5 BASE.

SNZISOON x Maon is CM3 SOOMa x HO (9)

The concentration of hydrogen ions (pH) in the acetic acid solution depends on its concentration and degree of dissociation.

The degree of dissociation of weak acetic acid decreases if a salt of this acid is added. A high concentration of salt will lead to a decrease in the concentration of hydrogen ions. Thus, by changing the concentration of acetic acid and the amount of sodium acetate (alkali metal hydroxide), solutions with different pH can be obtained.

The mechanism of action of alkali metal hydroxide and its effect on the change in acidity of the composition is explained as follows.

The alkali hydroxide ions bind to the hydrogen ions of acetic acid into non-dissociated water molecules. A decrease in hydrogen ions will lead to a change in the equilibrium of the dissociation of acetic acid and will shift it to the right, towards the formation of new hydrogen ions by chemical reaction (9).

At the same time, the concentration of salt increases and the degree of dissociation of acetic acid decreases. All these changes are not significant, they will not lead to a significant change in the pH level. When adding 100ml of 0.1M Mahon solution to 1 liter of acetate buffer solution with (СНЗСООнНСНЗСОО Ma) the pH will change in the range: from 4.73 to 4.82, i.e. by less than 0.1.

If alkali is added to purified water, the concentration of hydroxide ions will increase significantly, the concentration of hydrogen ions will decrease accordingly, and the pH of the solution will change significantly (from 7.0 to 11.95). b

Dilution of the proposed foaming composition with water practically does not affect the change in the pH of the medium.

The initial components of the foaming composition interact with the formation of water-soluble compounds. (Se)

The dependence of the rate of gas evolution on temperature for some pH values of the composition medium are shown in Table 3. Table 3 shows that gas saturation of the solution and formation of foam occurs at a relatively low temperature.

At the pH of the buffer solution, which is in the range from 4.0 to 6.0, thermal catalysis of gas saturation of the solution and the formation of foam is possible in the temperature range from 40 to 100"C. For example, at a pH equal to 4.5, the starting temperature gas evolution will be equal to 40"C, and at pH 6.0 - 507C. -

Laboratory tests of the composition for the development of wells were carried out on the installation, which is a model of a well when the system is heated at a rate of З - 57С in 1 min. :z" To obtain the foam system, two solutions of 20.0 g each are prepared, which contain sodium nitrite in the first solution, and the rest of the composition components in the second, so that when mixing, the weight ratio of the initial components in the mixture, as well as for the prototype, correspond to those given in the table. 3 With meaning. page 15 For example, in order to obtain a foam system at a medium pH equal to 5.5, two solutions are prepared: the first - 2.3 g of sodium nitrite is dissolved in water so that the total weight is 20.0 g, the second solution - (o) is thoroughly mixed for 15 - 20 minutes, 0.2 g of sulfanol NP-3, 1.0 g of urea, 3.3 g of sodium hydroxide and 7 ml of 100965 acetic acid in water, calculated so that the total weight is equal to 20.0 g .

The prepared solutions are combined and the resulting composition is tested for its foaming properties when heated to 70 degrees Celsius. The tests showed that the composition with a pH value of 4.0 does not emit corrosively active nitrogen dioxide when heated, and with a pH of 6b.0, the gas evolution reaction occurs only at a temperature exceeding 1007C. The subsequent increase in temperature will lead to the thermal hydrolysis of urea (1).

Thus, in order to reduce the corrosion of the equipment and the depth of the flow of the chemical influence of the gas-emitting components of the composition, the acidity indicator of the buffer solution should correspond to values not less than 4.0, but in not be higher than 6.0. (Table 4)

The upper boundary conditions of the ratio of the initial components, mass. 96 in the proposed composition determines the solubility of sodium nitrite in water, which will be equal to 44.995 at a temperature of 2076.

The results of the experiment are shown in table. 5 and show that the formation of foam occurs quite actively and because the foam-forming composition is effective at the content of the initial components, wt. 956, it is 2 - 2.5 times lower than the maximum possible values.

For example, at pH - 5 (Table 4) with the highest urea content of 6.495, reducing the concentration of urea to 2.6 wt. 95 and, accordingly, other gas-emitting components in the composition in a stoichiometric ratio (Table 5) allows to obtain foam.

The proposed foam-forming composition for the development of wells with a volume of Z allows to obtain foam at the bottom of the well with an adjustable rate of gas saturation of the solution, up to 3 liters and more in 1 second. In one technological cycle (0.5 - 1.5 hours).

Example

In order to cause fluid inflow from the formation of a production well during overhaul with a depth of 160 Ω, which is equipped with a 168 mm production column and 5 Ω pump-compressor pipes (tubes), with a formation capacity of 7. Ω and a temperature at the bottom of 65 "C, the well is developed with the proposed foaming composition. It is necessary to determine: the volume of the composition and the amount of each initial reagent for gas saturation of the solution at the wellbore and in the near-bore zone of the formation; the volume of the pushing fluid with a radius of penetration of the composition into the formation of 0.5 m. 70 For the composition containing urea, sodium nitrite, acetic acid, sodium hydroxide, surfactant and water, are found from the graphs of the dependence of: - the rate of gas evolution (Fig. 1) on the pH of the medium and temperature, to obtain the largest amount of foam at a temperature of 657C, the pH of the buffer mixture should be equal to 4.0; - the pH of the medium on the weight ratio of acetic acid to sodium hydroxide (Fig. 3) determine that /5 at pH 4.0 their ratio is equal to 7.5.

The solution is made by sequentially dissolving the estimated number of components, pumped sequentially through the pump-compressor pipe (tube) Z - 5m? oil is the price-forming composition and is pushed into the reservoir with oil in a volume of at least 3.14 m3.

The well is closed and kept for 0.5 - 1.5 hours, after which the pressure is gradually released through the annular space or tubing, and the inflow of fluid from the reservoir is checked.

Nitrites of other alkali or alkaline earth metals can be used instead of sodium nitrite, and other alkali metal hydroxides can be used instead of sodium hydroxide. The process of foam formation in this case does not differ from the interaction of these reagents with other components.

The process of manufacture and use is fundamentally the same, the difference is only in the quantitative proportions of the components, which are calculated using the reaction equation (8). "

Figures 2 and 4 show graphs of the dependence of the pH of the medium of the buffer solution on the weight ratio of potassium hydroxide to acetic acid and the rate of gas saturation of the solution depending on the pH of the medium and the temperature of the solution.

The proposed composition in use does not require the encouragement of special equipment and equipment, which allows its use in the production of foam, foam cements, foam polymers, and tamping solutions. high school

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R Urea |Sodium nitrite |Water Acetate kta| hydroxide

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Mo Mo Temperature, "C note and pelvic secretion of the formation of lniov | 118 518

Violent emission of brown gas z-z5 0035-40 aBIBO BBI vo 67-00 zv-40 1 Bo-BB 6570075 85 BYu zv-yao1vosev o 75IvO vBeB-TYU 1 30-45 0-75 and vo. ше POI vava 05 vvloy in elk | vo-vvo (vo vv ot6) vv vosev 45-50 vB-to vo 85 vo|eB-to0!

Table 4

MoMo rn buf. mixtures Urea Hydroxide |Acetic acid Sodium nitrite Surfactant |)/ Water zv vva 1280-0000 202 ov-lo rest, « 2 4o rve | 86)2140000100202 b6-1o sei vo | vv. |ta) vl | 53 6-10 hours (22)

Mo Mo |PH buff. mixtures Gas-releasing composition, wt. 95 South Africa (se) with ve 160 lav000l2o00zooo yu 41 in 1 26 | at 52 | zo ov) « - s Continuation of table 5 '

Foam 10095 o 2 (3050 80 Foam 10076 and 31

F

(se) va 72

Claims (1)

The formula of the invention is a foaming composition for development of wells, which includes urea, nitrite of an alkaline or alkaline earth metal, acetic acid, surfactant and water, which is characterized by the fact that it additionally includes hydroxide of an alkaline metal with the following ratio of components, by weight. 9o: P urea 3.0-8.8 alkali or alkaline earth metal nitrite 8.6-20.2 acetic acid 17.4-A1.0 in alkali metal hydroxide 9.6-21.6 surfactant 0.5-1, 0 water is the rest. b5